基于不同树干高度树轮宽度的历史气候重建潜力研究

黄力平<sup>1</sup>; 胡东宇<sup>1</sup>; 刘可祥<sup>2</sup>; 张瑞波<sup>2</sup>; 喻树龙<sup>2</sup>; 姜盛夏<sup>2</sup>; 秦莉<sup>2</sup>; 张同文<sup>2*</sup>

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引用本文:	黄力平，胡东宇，刘可祥，张瑞波，喻树龙，姜盛夏，秦莉，张同文.2023.基于不同树干高度树轮宽度的历史气候重建潜力研究[J].地球环境学报,14(3):352-360, 376
	HUANG Liping, HU Dongyu, LIU Kexiang, ZHANG Ruibo, YU Shulong, JIANG Shengxia, QIN Li, ZHANG Tongwen.2023.Based on tree-ring width historical climate reconstruction potential research from different stem height[J].Journal of Earth Environment,14(3):352-360, 376

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基于不同树干高度树轮宽度的历史气候重建潜力研究
黄力平，胡东宇，刘可祥，张瑞波，喻树龙，姜盛夏，秦莉，张同文
1. 新疆林业科学院现代林业研究所，乌鲁木齐 830000 2. 中国气象局乌鲁木齐沙漠气象研究所中国气象局树木年轮理化研究重点实验室新疆树木年轮生态实验室，乌鲁木齐 830002

摘要:

本研究利用新疆伊犁地区雪岭云杉不同树干高度树轮样本建立树轮宽度年表，并尝试使用该年表进行历史气候重建。相关分析表明，10 m树干高度树轮年表与当年6—7月平均最低气温相关显著，相关系数可达0.585（P＜0.001）。利用10 m树干高度树轮标准化年表建立了研究区1841—2014年当年6—7月平均最低气温，重建方程稳定可靠。分析表明，重建序列出现了5个偏冷阶段和4个偏暖阶段。其中，1938—1965年和1866—1912年分别是持续时间最长的偏冷和偏暖阶段。重建序列存在2.11 a、2.99—3.10 a、5.09 a、5.47 a、8.08 a、68.03 a的显著周期（P＜0.05）。该重建序列的建立进一步证明了利用不同树干高度树轮年表开展气候重建的可能性。在野外采样环境允许的情况下，可以将树干更高处树轮样本纳入采样范围。

关键词: 树木年轮雪岭云杉不同树高气候重建

DOI：10.7515/JEE222060

CSTR：32259.14.JEE222060

分类号:

基金项目:中国沙漠气象科学研究基金项目（Sqj2020003）；国家自然科学基金项目（U1803245，41975095）；新疆维吾尔自治区自然科学基金杰出青年科学基金项目（2022D01E105）

英文基金项目:Desert Meteorological Science Research Foundation of China (Sqj2020003); National Natural Science Foundation of China (U1803245, 41975095); Natural Science Foundation of Xinjiang Uigur Autonomous Region-Science Fund for Distinguished Young Scholars (2022D01E105)

Based on tree-ring width historical climate reconstruction potential research from different stem height

HUANG Liping, HU Dongyu, LIU Kexiang, ZHANG Ruibo, YU Shulong, JIANG Shengxia, QIN Li, ZHANG Tongwen

1. Institute of Modern Forestry, Xinjiang Academy of Forestry Science, Urumqi 830000, China
2. Xinjiang Laboratory for Tree Ring Ecology, Key laboratory of Tree-ring Physical and Chemical Research of China Meteorological Administration, Institute of Desert Meteorology, China Meteorological Administration, Urumqi 830002, China

Abstract:

Background, aim, and scope Climate reconstruction using tree-ring data is based on the principle that the growth process of tree rings is influenced by climatic factors. However, previous climatology studies based on tree rings have generally used tree-ring samples taken at 1.3 m for follow-up studies. Less attention has been paid to climate reconstruction based on data from tree rings sampled at different stem heights. In this study, tree-ring width chronologies were established using Schrenk spruce (Picea schrenkiana) samples collected at different stem heights. The trees were growing in Ili, Xinjiang, China. The chronologies were used to reconstruct the historical climate. Materials and methods Tree-ring samples collected at stem heights of 1.3 m, 5 m, 10 m, 15 m, and 20 m were evaluated to establish the chronologies. Correlation analyses were conducted between the tree-ring chronologies and the mean temperature, mean maximum temperature, mean minimum temperature, and precipitation. The tree stem height with the highest correlations with climate factors was used to build a model and carry out reconstruction analysis. Results The correlation analyses showed that the mean minimum temperature from Jun. to Jul. of the current year had the highest correlation with the chronological sequence at a stem height of 10 m. The reconstruction equation was able to reconstruct the historical climate. Discussion On the basis of the significant positive correlation between the tree-ring width chronology of Schrenk spruce at 10 m height and the mean minimum temperature in Jun.—Jul., as well as the clear physiological significance of the trees, we reconstructed the mean minimum temperature series of Jun.—Jul. for the past 174 a in the study area. We found that there were 35 cold years and 29 warm years in the past 174 a, with the longest partial cold period lasting for 28 a and the longest partial warm period lasting for 47 a. When combined with historical disaster information, the reconstructed series could better capture the known climate disasters in the past. A cycle analysis revealed that climate change in the study area may be influenced by multiple climate mechanisms. Moreover, the extreme years in this reconstructed sequence corresponded to the extreme years in other reconstructed sequences, which further demonstrated the feasibility of climate reconstruction using the chronology of tree rings at different stem heights. Conclusions Correlation analyses showed that there were 5 cold and 4 warm phases in the reconstruction sequence. The longest-lasting cold stage was from 1938 to 1965, and the longest-lasting warm stage was from 1866 to 1912. There were significant cycles of 2.11 a, 2.99—3.10 a, 5.09 a, 8.08 a, and 68.03 a in the reconstruction sequence. Recommendations and perspectives The establishment of the reconstruction sequence indicates that it is possible to carry out climate reconstruction using the chronology of tree rings at different stem heights. If the field sampling environment permits, tree-ring samples from higher up the trunk can be included in the sampling range.

Key words: tree ring Schrenk spruce (Picea schrenkiana) different stem height climate reconstruction